Citation: | Jianjun Chen, Rongqiang Yin, Gongda Chen, Junyu Lang, Xiaoping Chen, Xuefeng Chu, Junhua Li. Selective capture of Tl2O from flue gas with formation of p-n junction on V2O5-WO3/TiO2 catalyst under working conditions. Green Energy&Environment, 2023, 8(1): 4-9. doi: 10.1016/j.gee.2021.12.001 |
[1] |
M. Antonia Lopez Anton, D. Alan Spears, M.D. Somoano, M. Rosa Martinez Tarazona, Fuel 105 (2013) 13-18
|
[2] |
E. Raffetti, M. Treccani, F. Donato, Chemosphere 218 (2019) 211-222
|
[3] |
J. Liu, J. Wang, Y. Chen, X. Xie, J. Qi, H. Lippold, D. Luo, C. Wang, L. Su, L. He, Q. Wu, Environ. Pollut. 212 (2016) 77-89
|
[4] |
J. Liu, X. Luo, Y. Sun, D.C.W. Tsang, J. Qi, W. Zhang, N. Li, M. Yin, J. Wang, H. Lippold, Y. Chen, G. Sheng, Environ. Int. 126 (2019) 771-790
|
[5] |
O. Font, X. Querol, F. Plana, P. Coca, S. Burgos, F. Garcia Pena, Fuel 85 (2006) 2229-2242
|
[6] |
M. Antonia Lopez-Anton, D. Alan Spears, M. Diaz-Somoano, L. Diaz, M. Rosa Martinez-Tarazona, Fuel 146 (2015) 51-55
|
[7] |
O. Font, X. Querol, M. Izquierdo, E. Alvarez, N. Moreno, S. Diez, R. Alvarez-Rodriguez, C. Clemente-Jul, P. Coca, F. Garcia-Pena, Fuel 89 (2010) 3250-3261
|
[8] |
R. Yan, D. Gauthier, G. Flamant, Fuel 80 (2001) 2217-2226
|
[9] |
T. Viraraghavan, A. Srinivasan, in Encyclopedia of Environmental Health, ed. Nriagu, J., Elsevier, Oxford, Second edn., 2011, pp. 39-47
|
[10] |
Z. Ning, E. Liu, D. Yao, T. Xiao, L. Ma, Y. Liu, H. Li, C. Liu, Sci. Total Environ. 758 (2021) 143577
|
[11] |
Y. Cruz-Hernandez, M. Ruiz-Garcia, M. Villalobos, F.M. Romero, D. Meza-Figueroa, F. Garrido, E. Hernandez-Alvarez, T. Pi-Puig, Environ. Pollut. 237 (2018) 154-165
|
[12] |
Y. Chen, C. Wang, J. Liu, J. Wang, J. Qi, Y. Wu, Sci. China Earth Sci. 56 (2013) 1502-1509
|
[13] |
P. Lopez-Arce, J. Garcia-Guinea, F. Garrido, Chemosphere 181 (2017) 447-460
|
[14] |
Q. Ma, L. Jia, X. Wang, P. Ning, L. Wang, L. Xu, S. Sun, Y. Ma, Y. Zhang, T. Lei, W. Liu, J. Hao, Ind. Eng. Chem. Res. 59 (2020) 12955-12963
|
[15] |
J.-K. Lai, I.E. Wachs, ACS Catal. 8 (2018) 6537-6551
|
[16] |
M. Zhu, J.-K. Lai, U. Tumuluri, M.E. Ford, Z. Wu, I.E. Wachs, ACS Catal. 7 (2017) 8358-8361
|
[17] |
L.J. Alemany, L. Lietti, N. Ferlazzo, P. Forzatti, G. Busca, E. Giamello, F. Bregani, J. Catal. 155 (1995) 117-130
|
[18] |
X. Huang, D. Wang, Q. Yang, Y. Peng, J. Li, Appl. Catal. B Environ. 285 (2021) 119835
|
[19] |
G. Li, K. Shen, L. Wang, Y. Zhang, H. Yang, P. Wu, B. Wang, S. Zhang, Appl. Catal. B Environ. 286 (2021) 119865
|
[20] |
Y. Long, Y. Su, Y. Xue, Z. Wu, X. Weng, Environ. Sci. Technol. (2021)
|
[21] |
C. Li, D. Brewe, J.-Y. Lee, Appl. Catal. B Environ. 270 (2020) 118854
|
[22] |
Q. Liu, J. Mi, X. Chen, S. Wang, J. Chen, J. Li, Chem. Eng. J. 423 (2021) 130228
|
[23] |
G.E. Mcguire, G.K. Schweitzer, T.A. Carlson, Inorg. Chem. 12 (1973) 2450-2453
|
[24] |
J.A. Dean, Lange's Handbook of Chemistry, 15th edn., 1999
|
[25] |
W.L. Holstein, J. Phys. Chem. 97 (1993) 4224-4230
|
[26] |
D. Cubicciotti, F.J. Keneshea, J. Phys. Chem. 71 (1967) 808-814
|
[27] |
A. Fujishima, K. Honda, Nature 238 (1972) 37-38
|
[28] |
Y. Ma, A. Kuc, T. Heine, J. Am. Chem. Soc. 139 (2017) 11694-11697
|
[29] |
C. Wang, S. Wei, G. Gao, ACS Appl. Nano Mater. 2 (2019) 4061-4066
|
[30] |
X.Y. Wang, H.J. Wang, B. Xiang, L.W. Fu, H. Zhu, D. Chai, B. Zhu, Y. Yu, N. Gao, Z.Y. Huang, F.Q. Zu, ACS Appl. Mater. Inter. 10 (2018) 23277-23284
|
[31] |
C. Sah, R.N. Noyce, W. Shockley, Proc. IRE 45 (1957) 1228-1243
|
[32] |
W.J. Sun, H.Q. Ji, L.X. Li, H.Y. Zhang, Z.K. Wang, J.H. He, J.M. Lu, Angew. Chem. Int. Ed. Engl. 60 (2021) 22933-22939
|
[33] |
N. Chen, Z. Xue, H. Yang, Z. Zhang, J. Gao, Y. Li, H. Liu, Phys. Chem. Chem. Phys. 17 (2015) 1785-1789
|